Use of dronedarone for the preparation of a medicament for use in the prevention of cardiovascular hospitalization or of mortality

ABSTRACT

Methods of using dronedarone or a pharmaceutically acceptable salt thereof, for the preparation of a medicament for use in the prevention of cardiovascular hospitalization or of mortality, articles of manufacture and packages related thereto.

This application is a continuation of U.S. patent application Ser. No. 13/847,159, filed Mar. 19, 2013, which is a continuation of U.S. patent application Ser. No. 12/425,125, filed Apr. 16, 2009, which are incorporated herein by reference in their entirety.

The present invention relates to the use of dronedarone or pharmaceutically acceptable salts thereof, for the preparation of a medicament for use in the prevention of cardiovascular hospitalization and/or of mortality.

2-n-Butyl-3-[4-(3-di-n-butylaminopropoxy)benzoyl]-5-methylsulphonamidobenzofuran, or dronedarone, and pharmaceutically acceptable salts thereof are described in European Patent EP 0 471 609 B1.

Dronedarone blocks potassium, sodium and calcium channels and also has anti-adrenergic properties.

Dronedarone is an anti-arrhythmic that is effective in maintaining sinus rhythm in patients presenting with atrial fibrillation or atrial flutter.

The applicant has clinically proven that dronedarone significantly reduces cardiovascular hospitalizations and/or mortality in patients having a history of atrial fibrillation or of atrial flutter, by virtue of its ability to modulate the blood potassium level in a safe and effective way.

In fact, the use of benzofuran derivatives to reduce post-infarction mortality in patients having a reduced left ventricular function after myocardial infarction, without any rhythm disorder requiring an anti-arrhythmic treatment, is known from Patent Applications WO 98/40067 and WO 97/34597.

However, these applications neither disclose nor suggest the use of dronedarone to reduce cardiovascular hospitalizations and mortality in patients having a history of atrial fibrillation or atrial flutter, in particular by virtue of its ability to modulate the potassium level in the blood.

Potassium is the principal intracellular ion and plays an essential role in physiology.

Specifically, this ion is the principal osmotically active intracellular ion and plays an important role in the regulation of intracellular volume.

A constant and stable potassium concentration is essential for the function of enzyme systems and also for good growth and cell division.

Potassium contributes to establishing the resting potential of the cell membrane and, consequently, changes in potassium concentration, in particular in the extracellular compartment, have effects on cell excitability in the nervous, muscle and cardiac system.

A decrease in potassium concentration is known to increase cardiac hyperexcitability at the ventricular level, which can result in serious, potentially deadly, rhythm disorders.

The deleterious role of a decrease in potassium concentration has been documented in disparate clinical situations.

For example, in patients suffering from heart failure, the decrease in potassium concentration can lead to deadly rhythm disorders; diuretics having a “potassium sparing” effect have demonstrated a beneficial effect in this population.

The rapid decrease in potassium concentrations occurring following the abrupt arrest of intense physical exercise could also be responsible for certain sudden deaths.

A possible contribution of the decrease in potassium concentrations has been mentioned in the sudden death of patients treated with antipsychotics and also in acute alcohol withdrawal syndromes.

Eating habits with a reduced potassium intake may lead to sudden death in predisposed individuals, even without any structural cardiac pathology.

The risk of fatal cardiac hyperexcitability is particularly great in patients who receive an anti-arrhythmic treatment which prolongs the duration of cell repolarization, such as sotalol (Sotalex®). These agents may in fact induce a torsade de pointe, which is a severe and potentially deadly ventricular tachycardia. Torsades de pointes are facilitated by the decrease in potassium concentration.

Finally, it has been shown that the decrease in potassium concentration induces atrial fibrillations (Manoach M., J. Mol. Cell. Cardiol., 1998, 30(6): A4[8]).

Another clinical situation where the risk of potentially fatal cardiac rhythm disorders is high is represented by patients treated with diuretics, these medicaments, which are widely prescribed in many indications, the most common being arterial hypertension, but also heart failure, renal insufficiency, nephrotic syndrome, cirrhosis and glaucoma, expose the patient to the risk of a decrease in potassium concentration except for “potassium sparing” diuretics.

A complication of the decrease in potassium concentration subsequent to treatment with diuretics may be sudden death, in particular in patients who present an impairment of the contractile function of the heart or left ventricular dysfunction or after a myocardial infarction.

Regulation of the potassium concentration could therefore play an important beneficial role, in particular in the population of patients who require an anti-arrhythmic treatment (for atrial fibrillation) and who possibly have other risk factors.

Now, no anti-arrhythmic, to date, in therapy, has shown effects with regard to the regulation of the potassium level in the blood.

Atrial fibrillation (AF) affects about 2.3 million people in North America and 4.5 million people in the European Union and is emerging as a growing public health concern because of the aging of the population.

AF is a condition in which the upper chambers of the heart beat in an uncoordinated and disorganized fashion, resulting in a very irregular and fast rhythm (i.e., an irregularly, irregular heartbeat). When blood is not completely pumped out of the heart's chambers, it can pool and clot. If a blood clot forms in the atria, exits the heart and blocks an artery in the brain, a stroke results. Consequently, about 15 percent of strokes result from AF.

AF is increasingly frequent with advancing age and is often caused by age-related changes in the heart, physical or psychological stress, agents that stimulate the heart, such as caffeine, or as a result of cardiovascular disease. The number is expected to double in the next 20 years. Without appropriate management, AF can lead to serious complications, such as stroke and congestive heart failure.

It is known that atrial fibrillation itself can cause changes in the electrical parameters of the heart known as electrical remodelling and in the structure of the cardiac chambers known as structural remodelling which tend to decrease the chances of the patient to get back into normal sinus rhythm. This vicious circle whereby “atrial fibrillation begets atrial fibrillation” has been well documented since the 1990s (Wijffels M C, Kirchhof C J, Dorland R, Allessie M A. Atrial fibrillation begets atrial fibrillation. A study in awake chronically instrumented goats. Circulation. 1995 Oct. 1; 92(7):1954-68). It explains why when patients have been in atrial fibrillation for a long time they develop permanent atrial fibrillation with little or no chance to recover from this arrhythmia which becomes chronic.

A subject of the present invention is therefore the use of dronedarone or a pharmaceutically acceptable salt thereof, for the preparation of a medicament, wherein said medicament is taken, for use in the prevention of cardiovascular hospitalizations and/or of mortality.

Said prevention of cardiovascular hospitalizations and/or of mortality is provided to patients having a history of atrial fibrillation or atrial flutter.

A subject of the present invention is therefore the use of dronedarone or a pharmaceutically acceptable salt thereof, for the preparation of a medicament for use in the prevention of cardiovascular hospitalizations and/or of mortality notably in patients having a history of atrial fibrillation or atrial flutter.

A subject of the present invention is specifically the use of dronedarone or a pharmaceutically acceptable salt thereof, for the preparation of a medicament for use in the prevention of cardiovascular hospitalizations and/or of mortality notably in patients having a history of atrial fibrillation or atrial flutter through regulation of the potassium level in the blood.

Mention may in particular be made of cardiovascular mortality, and more particularly sudden death, also called sudden cardiac death or sudden death from cardiovascular causes.

A subject of the present invention is also the use of dronedarone or a pharmaceutically acceptable salt thereof, for the preparation of a medicament, taken twice a day with a meal, for use in the prevention of mortality and/or of cardiovascular hospitalizations notably in patients having a history of atrial fibrillation or atrial flutter

More specifically, a subject of the present invention is the use of dronedarone or a pharmaceutically acceptable salt thereof, for the preparation of a medicament for use in the prevention of approximately 24% of cardiovascular hospitalizations and/or of mortality in patients having a history of atrial fibrillation or atrial flutter, by regulating the potassium level in the blood.

A subject of the present invention is also the use of dronedarone or a pharmaceutically acceptable salt thereof, for the preparation of a medicament for use in the prevention of approximately 25% of cardiovascular hospitalizations and/or of cardiovascular mortality in patients having a history of atrial fibrillation or atrial flutter, by regulating the potassium level in the blood.

A subject of the present invention is also the use of dronedarone or a pharmaceutically acceptable salt thereof, for the preparation of a medicament for use in the prevention of approximately 26% of cardiovascular hospitalizations and/or of sudden death in patients having a history of atrial fibrillation or atrial flutter, by regulating the potassium level in the blood.

A subject of the present invention is also the use of dronedarone or a pharmaceutically acceptable salt thereof, in patients having a history of atrial fibrillation or atrial flutter, for the preparation of a medicament for use in the prevention:

-   -   of cardiovascular hospitalizations, and more particularly of         approximately 25% of cardiovascular hospitalizations, and/or     -   of mortality, particularly of approximately 15% of mortality,         and more particularly of approximately 16% of mortality, and/or     -   of cardiovascular mortality, and more particularly of         approximately 30% of cardiovascular mortality, and/or     -   of arrhythmic death, and more particularly of approximately 45%         of arrhythmic death.     -   of sudden death, and more particularly of approximately 59% of         sudden death and/or

Another subject of the instant invention is the use of dronedarone or one of its pharmaceutically acceptable salts for the preparation of a medicament for use in the prevention of cardiovascular hospitalization and/or of mortality notably in patients with permanent atrial fibrillation or atrial flutter.

More precisely, the invention relates to the use of dronedarone or one of its pharmaceutically acceptable salts for the preparation of a medicament for the prevention of about 33% of cardiovascular hospitalization and/or of mortality notably in patients with permanent atrial fibrillation or atrial flutter.

Another subject of the instant invention is the use of dronedarone or one of its pharmaceutically acceptable salts for the preparation of a medicament for use in the prevention of cardiovascular hospitalization and/or of mortality notably in patients with a history of atrial fibrillation or atrial flutter and with structural heart disease particularly structural heart disease in a stable hemodynamic condition.

More precisely, the invention relates to the use of dronedarone or one of its pharmaceutically acceptable salts for the preparation of a medicament for the prevention of about 24% of cardiovascular hospitalization and/or of mortality notably in patients with a history of atrial fibrillation or atrial flutter and with structural heart disease in a stable hemodynamic condition.

More precisely, the invention relates to the use of dronedarone or one of its pharmaceutically acceptable salts for the preparation of a medicament for use in the prevention of about 24% of cardiovascular hospitalization notably in patients with a history of atrial fibrillation or atrial flutter and with structural heart disease in a stable hemodynamic condition.

More precisely, the invention relates to the use of dronedarone or one of its pharmaceutically acceptable salts for the preparation of a medicament for use in the prevention of about 24% of mortality notably in patients with a history of atrial fibrillation or atrial flutter and with structural heart disease in a stable hemodynamic condition.

More precisely, the invention relates to the use of dronedarone or one of its pharmaceutically acceptable salts for the preparation of a medicament for use in the prevention of about 33% of cardiovascular mortality notably in patients with a history of atrial fibrillation or atrial flutter and with structural heart disease in a stable hemodynamic condition.

Said structural heart disease may be coronary heart disease and/or Ischemic dilated cardiomyopathy and/or non-ischemic dilated cardiomyopathy and/or rheumatic valvular heart disease and/or non-rheumatic valvular heart disease and/or hypertrophic cardiomyopathy and/or LVEF<45% and/or history of congestive heart failure wherein congestive heart failure may be defined for example as NYHA class III or by a reduced left ventricular ejection fraction below 0.35.

NYHA means New York Heart Association.

Mention may be made that congestive heart failure is a sub-group of heart failure.

Thus, the subject of the instant invention is also the use of dronedarone or one of its pharmaceutically acceptable salts for the preparation of a medicament for use in the prevention of cardiovascular hospitalization and/or of mortality notably in patients with a history of atrial fibrillation or atrial flutter and with congestive heart failure in a stable hemodynamic condition.

In an embodiment, the subject of the instant invention is the use of dronedarone or one of its pharmaceutically acceptable salts for the preparation of a medicament for use in the prevention of cardiovascular hospitalization and/or of mortality notably in patients with a history of atrial fibrillation or atrial flutter and with congestive heart failure defined as NYHA class III in a stable hemodynamic condition.

In an embodiment, the subject of the instant invention is the use of dronedarone or one of its pharmaceutically acceptable salts for the preparation of a medicament for use in the prevention of cardiovascular hospitalization and/or of mortality notably in patients with a history of atrial fibrillation or atrial flutter and with congestive heart failure defined by a reduced left ventricular ejection fraction below 0.35 in a stable hemodynamic condition.

More precisely, the invention relates to the use of dronedarone or one of its pharmaceutically acceptable salts for the preparation of a medicament for use in the prevention of about 44% of cardiovascular hospitalization and/or of mortality notably in patients with a history of atrial fibrillation or atrial flutter and with congestive heart failure defined as NYHA class III in a stable hemodynamic condition.

More precisely, the invention relates to the use of dronedarone or one of its pharmaceutically acceptable salts for the preparation of a medicament for use in the prevention of about 32% of cardiovascular hospitalization and/or of mortality notably in patients with a history of atrial fibrillation or atrial flutter and with congestive heart failure defined by a reduced left ventricular ejection fraction below 0.35 in a stable hemodynamic condition.

In an embodiment, the invention relates to the use of dronedarone or one of its pharmaceutically acceptable salts for the preparation of a medicament for use in the prevention of mortality notably in patients with a history of atrial fibrillation or atrial flutter and with congestive heart failure in a stable hemodynamic condition.

More precisely, the invention relates to the use of dronedarone or one of its pharmaceutically acceptable salts for the preparation of a medicament for use in the prevention of about 34% of mortality notably in patients with a history of atrial fibrillation or atrial flutter and with congestive heart failure defined as NYHA class III in a stable hemodynamic condition.

More precisely, the invention relates to the use of dronedarone or one of its pharmaceutically acceptable salts for the preparation of a medicament for use in the prevention of about 45% of death in patients with a history of atrial fibrillation or atrial flutter and with congestive heart failure defined with a left ventricular ejection fraction below 0.35 in a stable hemodynamic condition.

In an embodiment, the invention relates to the use of dronedarone or one of its pharmaceutically acceptable salts for the preparation of a medicament for use in the prevention of the worsening or development of congestive heart failure notably in patients with a history of atrial fibrillation or atrial flutter.

More precisely, the invention relates to the use of dronedarone or one of its pharmaceutically acceptable salts for the preparation of a medicament for use in the prevention of about 22% of the worsening or development of congestive heart failure NYHA class IV in patients with a history of atrial fibrillation or atrial flutter.

Patients with heart failure in a stable hemodynamic condition may be defined as patients without heart failure in an unstable hemodynamic condition.

In general, patients with heart failure in an unstable hemodynamic condition may be defined as patients with a severe heart failure and said severe heart failure may be defined by any of the following:

-   -   worsening symptoms of heart failure at rest or with minimal         exertion or,     -   history of, or current symptoms of congestive heart failure at         rest or,     -   symptoms of heart failure with minimal exertion within the last         month, i.e. the month prior to start of treatment or,     -   hospitalization for heart failure within the last month, i.e.         the month prior to start of treatment,     -   NYHA Class IV,     -   NYHA Class III within the last month,     -   recent decompensation as indicated by the need for         hospitalization or intravenous therapy, for example intravenous         inotropic or diuretic therapy,     -   recent decompensation requiring hospitalization or intravenous         therapy for the treatment of heart failure.

Therefore, the invention also relates to the use of dronedarone or pharmaceutically acceptable salts thereof for preparing a medicament for use in the treatment of atrial fibrillation or flutter or for use in the prevention of mortality and/or of cardiovascular hospitalization in patients without severe heart failure.

A subject of the instant invention also relates to dronedarone or one of its pharmaceutically acceptable salts for the treatment of atrial fibrillation or flutter in patients without severe heart failure, a therapeutic amount of dronedarone or pharmaceutically acceptable salt thereof being administered.

In one embodiment, the invention relates to dronedarone or one of its pharmaceutically acceptable salts for the treatment of atrial fibrillation or flutter in patients without severe heart failure, wherein severe heart failure is indicated by one or more of the following:

a) a history of, or current symptoms of congestive heart failure; b) symptoms of heart failure with minimal exertion within the last month; c) hospitalization of the patient for heart failure within the last month; d) hospitalization of the patient for NYHA Class IV heart failure; e) hospitalization of the patient for NYHA Class III heart failure within the last month, f) hospitalization of the patient for heart failure with recent decompensation as indicated by the need for hospitalization or intravenous therapy; and g) hospitalization of the patient for heart failure with recent decompensation requiring hospitalization or intravenous therapy for the treatment of heart failure.

In another embodiment, the invention relates to dronedarone or one of its pharmaceutically acceptable salts for the treatment of atrial fibrillation or flutter in patients without severe heart failure, wherein severe heart failure is indicated by hospitalization of the patient for NYHA Class IV heart failure.

In another embodiment, the invention relates to dronedarone or one of its pharmaceutically acceptable salts for the treatment of atrial fibrillation or flutter in patients without severe heart failure, wherein severe heart failure is indicated by hospitalization of the patient for NYHA Class III heart failure within the last month, i.e., one month prior to administration of dronedarone or one of its pharmaceutically acceptable salts.

Another subject of the invention is performed by providing dronedarone or pharmaceutically acceptable salts thereof, wherein said dronedarone or pharmaceutically acceptable salts thereof is provided along with information indicating that dronedarone or pharmaceutically acceptable salts thereof is indicated in patients with a recent history of or current atrial fibrillation or flutter and without severe heart failure.

In one embodiment, the information indicates that the atrial fibrillation or flutter is non-permanent. In another embodiment, the information indicates that the atrial fibrillation or flutter is associated with at least one risk factor. In another embodiment, the information indicates that severe heart failure is indicated by symptoms of heart failure with minimal exertion within the last month. In another embodiment, the information indicates that severe heart failure is indicated by hospitalization for heart failure within the last month. In another embodiment, the information indicates that severe heart failure is indicated by a history of, or current symptoms of congestive heart failure at rest. In another embodiment, the information indicates that severe heart failure is indicated by hospitalization of the patient for NYHA Class IV heart failure. In another embodiment, the information indicates that severe heart failure is indicated by hospitalization of the patient for NYHA Class III heart failure within the last month. In another embodiment, the information indicates that severe heart failure is indicated by hospitalization of the patient for heart failure with recent decompensation as indicated by the need for hospitalization or intravenous therapy.

In an embodiment of the invention, the information comprises printed matter that advises that dronedarone or pharmaceutically acceptable salts thereof is indicated in patients with either a recent history of or current atrial fibrillation or flutter with associated risk factors and without severe heart failure. In another embodiment, the printed material is a label.

The term “providing” includes selling, distributing, shipping, offering for sell, importing etc.

Mention may be made that “dronedarone for the treatment of” may be understood as “use of dronedarone for the preparation of a medicament for use in the treatment of”.

The treatment of atrial fibrillation or flutter with dronedarone or a pharmaceutically acceptable salt thereof may be contra-indicated for patients with severe heart failure as indicated by any of the following:

-   -   worsening symptoms of heart failure at rest or with minimal         exertion or,     -   history of, or current symptoms of congestive heart failure at         rest or,     -   symptoms of heart failure with minimal exertion within the last         month, i.e. the month prior to start of treatment or,     -   hospitalization for heart failure within the last month, i.e.         the month prior to start of treatment,     -   NYHA Class IV,     -   NYHA Class III within the last month,     -   recent decompensation as indicated by the need for         hospitalization or intravenous therapy, for example intravenous         inotropic or diuretic therapy,     -   recent decompensation requiring hospitalization or intravenous         therapy for the treatment of heart failure.

The invention also relates to the use of dronedarone or pharmaceutically acceptable salts thereof for preparing a medicament for use in the treatment of atrial fibrillation or flutter or for use in the prevention of mortality and/or of cardiovascular hospitalizations wherein said medicament is contra-indicated for patients with severe heart failure as indicated by any of the following:

-   -   worsening symptoms of heart failure at rest or with minimal         exertion or,     -   history of, or current symptoms of congestive heart failure at         rest or,     -   symptoms of heart failure with minimal exertion within the last         month, i.e. the month prior to start of treatment or,     -   hospitalization for heart failure within the last month, i.e.         the month prior to start of treatment,     -   NYHA Class IV,     -   NYHA Class III within the last month,     -   recent decompensation as indicated by the need for         hospitalization or intravenous therapy, for example intravenous         inotropic or diuretic therapy,     -   recent decompensation requiring hospitalization or intravenous         therapy for the treatment of heart failure.

The invention also relates to a method of promoting the use of dronedarone or pharmaceutically acceptable salts thereof, the method comprising the step of conveying to a recipient at least one message selected from the group consisting of:

(a) dronedarone or pharmaceutically acceptable salts thereof should be prescribed to a patient who has not been diagnosed with severe heart failure; (b) dronedarone or pharmaceutically acceptable salts thereof is contraindicated in patients with a history of or current symptoms of congestive heart failure; (c) dronedarone or pharmaceutically acceptable salts thereof is contraindicated in patients with severe heart failure; (d) dronedarone or pharmaceutically acceptable salts thereof is contraindicated in patients with symptoms of heart failure with minimal exertion within the last month; and (e) dronedarone or pharmaceutically acceptable salts thereof is contraindicated in patients who were hospitalized for heart failure within the last month, (f) dronedarone or pharmaceutically acceptable salts thereof is contraindicated in patients who were hospitalized for NYHA Class IV heart failure, (g) dronedarone or pharmaceutically acceptable salts thereof is contraindicated in patients who were hospitalized for NYHA Class III heart failure within the last month, (h) dronedarone or pharmaceutically acceptable salts thereof is contraindicated in patients who were hospitalized for heart failure with recent decompensation as indicated by the need for hospitalization or intravenous therapy, for example intravenous inotropic or diuretic therapy, (i) dronedarone or pharmaceutically acceptable salts thereof is contraindicated in patients who were hospitalized for heart failure with recent decompensation requiring hospitalization or intravenous therapy for the treatment of heart failure.

The invention also relates to a method of promoting the use of dronedarone or a pharmaceutically acceptable salt thereof, the method comprising the step of conveying to a recipient at least one message selected from the group consisting of

-   -   a) a primary endpoint of a study of dronedarone, or a         pharmaceutically acceptable salt thereof, was the time to first         hospitalization for cardiovascular reasons or death from any         cause;     -   b) a secondary endpoint of a study of dronedarone, or         pharmaceutically acceptable salt thereof, was death from any         cause;     -   c) a secondary endpoint of a study of dronedarone, or a         pharmaceutically acceptable salt thereof, was time to death from         any cause;     -   d) a secondary endpoint of a study of dronedarone, or a         pharmaceutically acceptable salt thereof, was time to         cardiovascular death;     -   e) a secondary endpoint of a study of dronedarone, or a         pharmaceutically acceptable salt thereof, was time to first         hospitalization for cardiovascular reasons;     -   f) a secondary endpoint of a study of dronedarone, or a         pharmaceutically acceptable salt thereof, was time to first         hospitalization for atrial fibrillation and other         supraventricular rhythm disorders;     -   g) a secondary endpoint of a study of dronedarone, or a         pharmaceutically acceptable salt thereof, was time to first         hospitalization for worsening heart failure;     -   h) a secondary endpoint of a study of dronedarone, or a         pharmaceutically acceptable salt thereof, was time to first         hospitalization for myocardial infarction;     -   i) a secondary endpoint of a study of dronedarone, or a         pharmaceutically acceptable salt thereof, was time to first         hospitalization for myocardial infarction;     -   j) a secondary endpoint of a study of dronedarone, or a         pharmaceutically acceptable salt thereof, was time to first         hospitalization for transient ischemic event or cerebral stroke;     -   k) a secondary endpoint of a study of dronedarone, or a         pharmaceutically acceptable salt thereof, was time to sudden         death;     -   l) dronedarone, or a pharmaceutically acceptable salt thereof,         reduced the combined endpoint of cardiovascular hospitalization         or death from any cause by about 24 percent;     -   m) dronedarone, or a pharmaceutically acceptable salt thereof,         reduced the combined endpoint of cardiovascular hospitalization         or death from any cause by 24.2 percent;     -   n) dronedarone, or a pharmaceutically acceptable salt thereof,         reduced the combined endpoint of cardiovascular hospitalization         or death from any cause by 24.2 percent, driven by a reduction         in cardiovascular hospitalization; and     -   o) 70 percent of patients enrolled in a study of dronedarone, or         a pharmaceutically acceptable salt thereof, had no heart         failure.

In one embodiment, the message is provided in a label or package insert.

The invention also concerns an article of manufacture comprising

a) a packaging material; b) dronedarone or pharmaceutically acceptable salts thereof, and c) a label or package insert contained within the packaging material indicating that dronedarone or pharmaceutically acceptable salts thereof is contraindicated in patients with severe heart failure.

In some embodiments, the packaging material indicates that dronedarone or pharmaceutically acceptable salts thereof is contraindicated in patients with severe heart failure indicated by one or more of the following:

a) a history of, or current symptoms of congestive heart failure; b) symptoms of heart failure with minimal exertion within the last month; c) hospitalization of the patient for heart failure within the last month; d) hospitalization of the patient for NYHA Class IV heart failure; e) hospitalization of the patient for NYHA Class III heart failure within the last month, f) hospitalization of the patient for heart failure with recent decompensation as indicated by the need for hospitalization or intravenous therapy; and g) hospitalization of the patient for heart failure with recent decompensation requiring hospitalization or intravenous therapy for the treatment of heart failure.

The invention also relates to a package comprising dronedarone or pharmaceutically acceptable salts thereof and a label, said label comprising a printed statement which informs a prospective user that dronedarone or pharmaceutically acceptable salts thereof is contraindicated in patients with severe heart failure.

In some embodiments, the printed statement informs a prospective user of one or more of the following:

a) that dronedarone or pharmaceutically acceptable salts thereof is contraindicated in patients with severe heart failure indicated by a history of, or current symptoms of congestive heart failure; b) that dronedarone or pharmaceutically acceptable salts thereof is contraindicated in patients with severe heart failure indicated by symptoms of heart failure with minimal exertion within the last month; c) that dronedarone or pharmaceutically acceptable salts thereof is contraindicated in patients with severe heart failure indicated by hospitalization for heart failure within the last month; d) that dronedarone or pharmaceutically acceptable salts thereof is contraindicated in patients with severe heart failure indicated by NHYA Class IV; e) that dronedarone or pharmaceutically acceptable salts thereof is contraindicated in patients with severe heart failure indicated by NYHA Class III within the last month; f) that dronedarone or pharmaceutically acceptable salts thereof is contraindicated in patients with severe heart failure indicated by recent decompensation as indicated by the need for hospitalization or intravenous therapy, for example intravenous inotropic or diuretic therapy; and g) dronedarone or pharmaceutically acceptable salts thereof is contraindicated in patients who were hospitalized for heart failure with recent decompensation requiring hospitalization or intravenous therapy for the treatment of heart failure.

The invention also relates to a package comprising dronedarone or a pharmaceutically acceptable salt thereof and a label, said label comprising at least one message selected from the group consisting of:

-   -   a) a primary endpoint of a study of dronedarone, or a         pharmaceutically acceptable salt thereof, was the time to first         hospitalization for cardiovascular reasons or death from any         cause; and     -   b) a secondary endpoint of a study of dronedarone, or         pharmaceutically acceptable salt thereof, was death from any         cause;     -   c) a secondary endpoint of a study of dronedarone, or a         pharmaceutically acceptable salt thereof, was time to death from         any cause;     -   d) a secondary endpoint of a study of dronedarone, or a         pharmaceutically acceptable salt thereof, was time to         cardiovascular death;     -   e) a secondary endpoint of a study of dronedarone, or a         pharmaceutically acceptable salt thereof, was time to first         hospitalization for cardiovascular reasons;     -   f) a secondary endpoint of a study of dronedarone, or a         pharmaceutically acceptable salt thereof, was time to first         hospitalization for atrial fibrillation and other         supraventricular rhythm disorders;     -   g) a secondary endpoint of a study of dronedarone, or a         pharmaceutically acceptable salt thereof, was time to first         hospitalization for worsening heart failure;     -   h) a secondary endpoint of a study of dronedarone, or a         pharmaceutically acceptable salt thereof, was time to first         hospitalization for myocardial infarction;     -   i) a secondary endpoint of a study of dronedarone, or a         pharmaceutically acceptable salt thereof, was time to first         hospitalization for myocardial infarction;     -   j) a secondary endpoint of a study of dronedarone, or a         pharmaceutically acceptable salt thereof, was time to first         hospitalization for transient ischemic event or cerebral stroke;         and     -   k) a secondary endpoint of a study of dronedarone, or a         pharmaceutically acceptable salt thereof, was time to sudden         death,     -   l) dronedarone, or a pharmaceutically acceptable salt thereof,         reduced the combined endpoint of cardiovascular hospitalization         or death from any cause by about 24 percent;     -   m) dronedarone, or a pharmaceutically acceptable salt thereof,         reduced the combined endpoint of cardiovascular hospitalization         or death from any cause by 24.2 percent;     -   n) dronedarone, or a pharmaceutically acceptable salt thereof,         reduced the combined endpoint of cardiovascular hospitalization         or death from any cause by 24.2 percent, driven by a reduction         in cardiovascular hospitalization; and     -   o) 70 percent of patients enrolled in a study of dronedarone, or         a pharmaceutically acceptable salt thereof, had no heart         failure.

Another method of the invention comprises treating a patient with a recent history of or current atrial fibrillation or flutter, said method comprising administrating to said patient a therapeutically effective amount of dronedarone, or a pharmaceutically acceptable salt thereof, wherein said patient does not have severe heart failure.

In one embodiment, the patient does not have severe heart failure, wherein severe heart failure is indicated by one or more selected from the group consisting of:

-   -   a) history of, or current symptoms of congestive heart failure         at rest;     -   b) symptoms of heart failure with minimal exertion within the         last month; and     -   c) hospitalization for heart failure within the last month,     -   d) NYHA Class IV,     -   e) NYHA Class III within the last month,     -   f) recent decompensation as indicated by the need for         hospitalization or intravenous therapy, for example intravenous         inotropic or diuretic therapy,     -   g) recent decompensation requiring hospitalization or         intravenous therapy for the treatment of heart failure.

Another method of the invention relates to transforming a patient with a recent history of or current atrial fibrillation or flutter by decreasing the patient's risk of cardiovascular hospitalizations or mortality, comprising administrating to said patient a therapeutically effective amount of dronedarone, or a pharmaceutically acceptable salt thereof, wherein said patient does not have severe heart failure.

A subject of the invention is a method of decreasing the risk of cardiovascular hospitalizations or mortality in a patient having a history of atrial fibrillation or atrial flutter, said method comprising administering dronedarone, or a pharmaceutically acceptable salt thereof, twice a day with a meal to a patient in need thereof, wherein said patient does not have severe heart failure.

In terms of clinical study, the prevention of “cardiovascular hospitalizations or of mortality” or of “cardiovascular hospitalizations or of cardiovascular mortality” or of “cardiovascular hospitalizations or of sudden death” constitute what are referred to as composite criteria or a combined endpoint.

All the percentages given above correspond to average values.

Diuretics are widely prescribed for their efficacy in the treatment of a diversity of conditions, such as arterial hypertension, congestive heart failure, renal insufficiency, nephrotic syndrome, cirrhosis or glaucoma.

One of the major consequences of a treatment based on diuretics, except for potassium sparing diuretics, is increased potassium excretion which can result in hypokalaemia.

Now, hypokalaemia is known to increase cardiac excitability, resulting, in certain patients, in ventricular arrhythmia and sudden death (Cooper et al., Circulation, 1999, 100, pages 1311-1315).

Advantageously, a subject of the present invention is also the use of dronedarone or a pharmaceutically acceptable salt thereof, for the preparation of a medicament for use in the prevention of cardiovascular hospitalizations and/or of mortality in patients having a history of atrial fibrillation or atrial flutter and receiving a diuretic-based treatment, in particular a treatment based on non-potassium sparing diuretics.

A subject of the present invention is also the use of dronedarone or a pharmaceutically acceptable salt thereof, for the preparation of a medicament for regulating the potassium level in the blood, in particular for use in the prevention of hypokalaemia, especially in patients having histories of atrial fibrillation or atrial flutter and/or patients receiving a diuretic-based treatment, in particular a treatment based on non-potassium sparing diuretics.

Said diuretic is administered at therapeutically active doses chosen between 1 mg/day and 2 g/day.

Among the pharmaceutically acceptable salts of dronedarone, mention may be made of the hydrochloride.

The term “non-potassium sparing diuretic” is intended to mean a diuretic which increases potassium excretion.

The term “cardiovascular hospitalization” means a hospitalization which is caused by at least one of the following pathologies (Hohnloser et al., Journal of cardiovascular electrophysiology, January 2008, vol. 19, No. 1, pages 69-73):

-   -   relating to atherosclerosis,     -   myocardial infarction or unstable angina pectoris,     -   stable angina pectoris or atypical thoracic pain,     -   syncope,     -   transient ischemic event or cerebral stroke (except intracranial         haemorrhage),     -   atrial fibrillation and other supraventricular rhythm disorders,     -   non-fatal cardiac arrest,     -   ventricular arrhythmia,     -   cardiovascular surgery, except heart transplant,     -   heart transplant,     -   implantation of a cardiac stimulator (pacemaker), of an         implantable defibrillator (“ICD”) or of another cardiac device,     -   percutaneous coronary, cerebrovascular or peripheral         intervention,     -   variations in arterial pressure (hypotension, hypertension,         except syncope),     -   cardiovascular infection,     -   major bleeding/haemorrhage (requiring two or more blood cell         pellets or any intracranial haemorrhage),     -   pulmonary embolism or deep vein thrombosis,     -   worsening of congestive heart failure including acute pulmonary         oedema or dyspnoea from cardiac causes.

Consequently, the prevention of cardiovascular hospitalization may be understood as the prevention of cardiovascular hospitalization for at least one of the above mentioned pathologies.

Mention may be made of the prevention of cardiovascular hospitalization for atrial fibrillation and/or other supraventricular rhythm disorders.

Mention may also be made of the prevention of cardiovascular hospitalization for transient ischemic event or cerebral stroke.

Thus, a subject of the present invention is also the use of dronedarone or a pharmaceutically acceptable salt thereof, for the preparation of a medicament for the prevention of cardiovascular hospitalization for at least one of the above mentioned pathologies such as atrial fibrillation and/or other supraventricular rhythm disorders and/or stroke.

The term “mortality” or “death” are equivalent and cover mortality due to any cause, whether cardiovascular or non-cardiovascular or unknown.

The term “cardiovascular mortality” covers, in the context of the invention, mortality due to any cardiovascular causes (any death except those due to a non-cardiovascular cause), in particular death from an arrhythmic cause, also called arrhythmic death, and more particularly, sudden death from cardiovascular causes, also called sudden death or sudden cardiac death.

Cardiovascular mortality may be due for example to:

-   -   Aortic dissection/aneurysm     -   Cardiac tamponade     -   Cardiogenic shock     -   congestive heart failure     -   Death during a cardiovascular transcutaneous interventional         procedure or cardiovascular surgical intervention     -   Hemorrhage (except cardiac tamponade)     -   Myocardial infarction or unstable angina (including         complications of myocardial infarction, except arrhythmias)     -   Pulmonary or peripheral embolism     -   Stroke     -   Sudden cardiac death (eg, unwitnessed death or documented         asystole)     -   Ventricular arrhythmia, subclassified as torsades de pointes,         ventricular extrasystole, ventricular fibrillation, ventricular         tachycardia (non-sustained and sustained ventricular         tachycardia), or other ventricular arrhythmia     -   Unknown cause

The term “sudden death” refers, in general, to death occurring within the hour or less than one hour after the appearance of new symptoms or unexpected death without warning.

It will also be specified that the expression “patients having a history of atrial fibrillation or atrial flutter”, “patients with a history of or a current atrial fibrillation or flutter” or “patients with a recent history of or a current atrial fibrillation or flutter” or “patients with paroxysmal or persistent atrial fibrillation or flutter” or “patients with a history of, or a current paroxysmal or persistent atrial fibrillation or flutter” or “patients with a recent history of, or a current paroxysmal or persistent atrial fibrillation or flutter” or “patients with paroxysmal or intermittent atrial fibrillation or atrial flutter and a recent episode of atrial fibrillation or atrial flutter, who are in sinus rhythm or who will be cardioverted” or “patients with paroxysmal or persistent atrial fibrillation or atrial flutter and a recent episode of atrial fibrillation or atrial flutter, who are in sinus rhythm or who will be cardioverted” means a patient who, in the past, has presented one or more episodes of atrial fibrillation or flutter and/or who is suffering from atrial fibrillation or atrial flutter at the time the dronedarone or a pharmaceutically acceptable salt thereof is used. More particularly, this expression means patients with documentation of having been in both atrial fibrillation or flutter and sinus rhythm within the last 6 months preceding the start of treatment. Patients could be either in sinus rhythm, or in atrial fibrillation or flutter at the time the dronedarone or a pharmaceutically acceptable salt thereof is initiated.

It will also be specified that the terms “persistent” and “intermittent” are equivalent.

Patients in “permanent atrial fibrillation or flutter” are patients that have all scheduled ECGs in this rhythm throughout the period the dronedarone or a pharmaceutically acceptable salt thereof is administered.

The term “coronary disease” or “coronary heart disease” refers to:

-   -   1) Coronary artery disease: documented history of acute         myocardial infarction and/or significant (≧70%) coronary artery         stenosis and/or history of a revascularization procedure         (percutaneous transluminal coronary angioplasty, stent         implantation in a coronary artery, coronary artery bypass graft,         etc) and/or a positive exercise test and/or positive nuclear         scan of cardiac perfusion     -   2) Ischemic dilated cardiomyopathy: clinically significant left         ventricular dilatation secondary to coronary artery disease

Of course, it may be understood that “prevention of cardiovascular hospitalization and/or mortality” results in the reduction of the risk of cardiovascular hospitalization and or mortality or in the reduction of the need of cardiovascular hospitalization and or mortality.

Among the patients with a recent history of, or a current atrial fibrillation or atrial flutter, mention may be made of patients with a recent history of, or a current, non permanent atrial fibrillation or flutter.

Among the patients, notably patients having a history of atrial fibrillation or atrial flutter, mention may also be made of patients also exhibiting at least one of the following risk factors:

-   -   age notably equal to or above 70, or even above 75,     -   hypertension,     -   diabetes,     -   history of cerebral stroke or of systemic embolism, i.e. prior         cerebrovascular accident,     -   left atrial diameter greater than or equal to 50 mm measured for         example by echocardiography,     -   left ventricular ejection fraction less than 40%, measured for         example by two-dimensional echography.

The efficacy of dronedarone to reduce cardiovascular hospitalization or death is now clinically proven in patients with the above mentioned associated risk factors.

The above mentioned risks factors may be defined as cardiovascular risk factors which are associated to atrial fibrillation.

Among the patients, notably patients having a history of atrial fibrillation or atrial flutter, mention may also be made of patients also exhibiting additional risk factors, i.e. at least one of the following pathologies:

-   -   hypertension,     -   underlying structural heart disease,     -   tachycardia,     -   coronary disease,     -   non-rheumatic heart valve disease,     -   dilated cardiomyopathy of ischemic origin,     -   ablation of atrial fibrillation or flutter, for example catheter         ablation or endomyocardial ablation,     -   supraventricular tachycardia other than atrial fibrillation or         flutter,     -   history of heart valve surgery,     -   non-ischemic dilated cardiomyopathy,     -   hypertrophic cardiomyopathy,     -   rheumatic valve disease,     -   sustained ventricular tachycardia,     -   congenital cardiopathy,     -   ablation, for example catheter ablation, for tachycardia other         than for atrial fibrillation or flutter,     -   ventricular fibrillation,

and/or at least one cardiac device chosen from:

-   -   a cardiac stimulator,     -   an implantable defibrillator (“ICD”).

The expression “regulating the potassium level in the blood” means preventing the decrease or a possible increase in said level.

The principal classes of non-potassium sparing diuretics are:

-   -   thiazide diuretics,     -   loop diuretics,     -   proximal diuretics (osmotics, carbonic anhydrase inhibitors).

For their therapeutic use, dronedarone and pharmaceutically acceptable salts thereof are generally introduced into pharmaceutical compositions.

These pharmaceutical compositions contain an effective dose of dronedarone or of a pharmaceutically acceptable salt thereof, and also at least one pharmaceutically acceptable excipient.

Said pharmaceutical composition may be given once or twice a day with food.

The dose of dronedarone administered per day, orally, may reach 800 mg, taken in one or more intakes, for example one or two.

More specifically, the dose of dronedarone administered may be taken with food.

More specifically, the dose of dronedarone administered per day, orally, may reach 800 mg, taken in two intakes with a meal.

The dose of dronedarone administered per day, orally may be taken at a rate of twice a day with a meal for example with the morning and the evening meal.

More specifically, the two intakes may comprise same quantity of dronedarone.

There may be specific cases where higher or lower dosages are appropriate; such dosages do not depart from the context of the invention. According to the usual practice, the dosage appropriate for each patient is determined by the physician according to the method of administration, the weight, the pathology, the body surface, the cardiac output and the response of said patient.

Said excipients are chosen according to the pharmaceutical form and the method of administration desired, from the usual excipients which are known to those skilled in the art.

In said pharmaceutical compositions for oral, sublingual, subcutaneous, intramuscular, intravenous, topical, local, intratracheal, intranasal, transdermal or rectal administration, dronedarone, or the salt thereof, can be administered in unit administration form, as a mixture with conventional pharmaceutical excipients, to animals and to humans in the cases mentioned above.

The suitable unit administration forms comprise forms for oral administration, such as tablets, soft or hard gel capsules, powders, granules and oral solutions or suspensions, sublingual, buccal, intratracheal, intraocular or intranasal administration forms, forms for administration by inhalation, topical, transdermal, subcutaneous, intramuscular or intravenous administration forms, rectal administration forms, and implants. For topical application, dronedarone and pharmaceutically acceptable salts thereof can be used in creams, gels, ointments or lotions.

By way of example, a unit administration form of dronedarone or a pharmaceutically acceptable salt thereof, in tablet form, may correspond to one of the following examples:

Ingredients mg % Dronedarone hydrochloride (corresponding to 426 65.5 400 mg of base) Methylhydroxypropylcellulose 21.1 3.25 Lactose monohydrate 46.55 7.2 Maize starch 45.5 7 Polyvinylpyrrolidone 65 10 Poloxamer 407 40 6.15 Anhydrous colloidal silica 2.6 0.4 Magnesium stearate 3.25 0.5 650 100

Ingredients mg % Dronedarone hydrochloride (corresponding to 400 mg 426 65.5 of base) Microcrystalline cellulose 65 10 Anhydrous colloidal silica 2.6 0.4 Anhydrous lactose 42.65 6.6 Polyvinylpyrrolidone 13 2 Poloxamer 407 40 6.15 Macrogol 6000 57.5 8.85 Magnesium stearate 3.25 0.5 650 100

Ingredients mg Dronedarone hydrochloride (corresponding to 400 mg of 426 base) Microcrystalline cellulose 26 Maize starch 45.5 Polyvinylpyrrolidone 65 Poloxamer 407 40 Anhydrous colloidal silica 3.25 Magnesium stearate 3.25 Lactose monohydrate 41.65 650

Ingredients mg Dronedarone hydrochloride (corresponding to 400 mg of 213 base) Microcrystalline cellulose 13 Maize starch 22.75 Polyvinylpyrrolidone 32.5 Poloxamer 407 20 Anhydrous colloidal silica 1.3 Magnesium stearate 1.625 Lactose monohydrate 20.825 650

According to another of its aspects, the present invention also relates to a method for treating the pathologies indicated above, which comprises the administration, to a patient, of an effective dose of dronedarone or a pharmaceutically acceptable salt thereof.

One method of the invention includes decreasing the risk of mortality, cardiac hospitalizations, or the combination thereof in a patient, said method comprising administering to said patient an effective amount of dronedarone or a pharmaceutically acceptable salt thereof, with food.

In one embodiment, the mortality is a cardiovascular mortality. In one embodiment, the mortality is a sudden death.

Another method of the invention is a method of regulating the potassium level in the blood of a patient having a history of or current atrial fibrillation or atrial flutter, said method comprising administering to said patient dronedarone or a pharmaceutically acceptable salt thereof, with food.

In some embodiments of the above methods according to the invention, the patient has a history of or current atrial fibrillation or flutter. In some embodiments of the above methods according to the invention, the patient has a recent history of or a current paroxysmal or persistent atrial fibrillation or atrial flutter. In some embodiments of the above methods according to the invention, the patient has a history of or a current, non permanent atrial fibrillation or atrial flutter. In some embodiments of the above methods according to the invention, the administration of dronedarone or pharmaceutically acceptable salt thereof prevents cardiovascular hospitalizations. In some embodiments of the above methods according to the invention, said patient has a permanent atrial fibrillation or atrial flutter. In some embodiments of the above methods according to the invention, said patient has structural heart disease. In some embodiments of the above methods according to the invention, said patient has congestive heart failure in a stable hemodynamic condition. In some embodiments of the above methods according to the invention, said patient has congestive heart failure defined as NYHA class III in a stable hemodynamic condition. In some embodiments of the above methods according to the invention, said patient has congestive heart failure defined by a reduced left ventricular ejection fraction below 0.35 in a stable hemodynamic condition. In some embodiments of the above methods according to the invention, said patient also exhibits one or more of the above mentioned associated risk factors.

Another method of the invention is a method of preventing coronary disease in a patient with a history of or current atrial fibrillation or atrial flutter, said method comprising administrating to said patient a therapeutically effective amount of dronedarone or a pharmaceutically acceptable salt thereof. In one embodiment, said patient further receives a diuretic-based treatment. In one embodiment, said patient further receives a treatment with a non-potassium-sparing diuretic. In some embodiments, said patient also exhibits one or more of the above mentioned associated risk factors.

BRIEF DESCRIPTION OF THE DRAWINGS

The present invention is illustrated by the data hereinafter with reference to the attached drawings in which:

FIG. 1 represents a Kaplan Meier curve with the cumulative rate of hospitalization or of death from any cause over a period of 30 months;

FIG. 2 represents a Kaplan Meier curve with the cumulative rate of hospitalization or of cardiovascular death over a period of 30 months;

FIG. 3 represents a Kaplan Meier curve with the cumulative rate of hospitalization or of sudden death over a period of 30 months;

FIG. 4 represents a Kaplan Meier curve with the cumulative rate of hospitalization over a period of 30 months;

FIG. 5 represents a Kaplan Meier curve with the cumulative rate of death from any cause over a period of 30 months;

FIG. 6 represents a Kaplan Meier curve with the cumulative rate of cardiovascular death over a period of 30 months;

FIG. 7 represents a Kaplan Meier curve with the cumulative rate of sudden death over a period of 30 months;

FIG. 8 represents the mean variations in potassium between the first and the last administration over a period of 30 months.

FIG. 9 represents a Kaplan Meier curve with the cumulative rate of hospitalization or of death from any cause over a period of 30 months.

FIG. 10 represents a Kaplan Meier curve with the cumulative rate of hospitalization or of death from any cause in Patients with NYHA class III congestive heart failure over a period of 30 months.

The efficacy, relative to a placebo, of dronedarone and of pharmaceutically acceptable salts thereof, in the prevention of cardiovascular hospitalizations or of mortality was demonstrated, by means of dronedarone hydrochloride, in a prospective, multinational, multicentre, double-blind clinical study with random distribution in two groups of treatment (group treated with dronedarone hydrochloride and group treated with a placebo) of patients having a history of atrial fibrillation or atrial flutter.

I. PATIENT SELECTION

The patients had to have a history of atrial fibrillation or flutter and/or could be in normal sinus rhythm or in atrial fibrillation or flutter at inclusion.

The patient recruitment was carried out by taking into account the following inclusion criteria:

Inclusion Criteria:

-   -   1) One of the following risk factors had to be present:         -   age equal to or greater than 70 years,         -   hypertension (taking antihypertensives of at least two             different classes),         -   diabetes,         -   history of cerebral stroke (transient ischemic event or             completed cerebral stroke) or of systemic embolism,         -   left atrial diameter greater than or equal to 50 mm measured             by echocardiography,         -   left ventricular ejection fraction less than 40%, measured             by two-dimensional echography; or         -   age equal to or above 70, or even above 75, possibly             combined with at least one of the risk factors below:             -   hypertension (taking antihypertensives of at least two                 different classes),             -   diabetes,             -   history of cerebral stroke (transient ischemic event or                 completed cerebral stroke) or of systemic embolism,             -   left atrial diameter greater than or equal to 50 mm                 measured by echocardiography,             -   left ventricular ejection fraction less than 40%,                 measured by two-dimensional echography;     -   2) availability of an electrocardiogram carried out during the         past 6 months in order to document the presence or the history         of atrial fibrillation or flutter;     -   3) availability of an electrocardiogram carried out during the         past 6 months in order to document the presence or absence of         normal sinus rhythm.

Exclusion Criteria: General Criteria:

-   -   Refusal or inability to give informed consent to participate in         the study.     -   Any non cardiovascular illness or disorder that could preclude         participation or severely limit survival including cancer with         metastasis and organ transplantation requiring immune         suppression.     -   Pregnant women (pregnancy test must be negative) or women or         childbearing potential not on adequate birth control: only women         with a highly effective method of contraception [oral]         contraception or intra-uterine device (IUD) or sterile can be         randomize.     -   Breastfeeding women.     -   Previous (2 preceding months) or current participation in         another trial with an investigational drug (under development)         or with an investigational device.     -   Previous participation in this trial.

Criteria Related to a Cardiac Condition:

-   -   Patients in permanent atrial fibrillation     -   Patients in unstable hemodynamic condition such as acute         pulmonary edema within 12 hours prior to start of study         medication; cardiogenic shock; treatment with IV pressor agents;         patients on respirator; congestive heart failure of stage NYHA         IV within the last 4 weeks; uncorrected, hemodynamically         significant primary obstructive valvular disease;         hemodynamically significant obstructive cardomyopathy; a cardiac         operation or revascularization procedure within 4 weeks         preceding randomization     -   Planned major non-cardiac or cardiac surgery or procedures         including surgery for valvular heart disease, coronary artery         bypass graft (CABG), percutaneous coronary intervention (PCI),         or on urgent cardiac transplantation list     -   Acute myocarditis or constrictive pericarditis     -   Bradycardia <50 bpm and/or PR-interval ≧0.28 sec on the last         12-lead ECG.     -   Significant sinus node disease (documented pause of 3 seconds or         more) or 2^(nd) or 3^(rd) degree atrioventricular block         (AV-block) unless treated with a pacemaker.

Criteria Related to Concomitant Medications:

Need of a concomitant medication that is prohibited in this trial, including the requirement for Vaughan Williams Class I and III anti-arrhythmic drugs, that would preclude the use of study drug during the planned study period, i.e. patients have to stop others antiarrhythmics such as Vaughan Williams Class I and III anti-arrhythmic drugs, for example amiodarone, flecainide, propafenone, quinidine, disopyramide, dofetilide, solatol.

Criteria Related to Laboratory Abnormalities:

-   -   Plasma potassium <3.5 mmol/l (as anti-arrhythmic drugs can be         arrhythmogenic in patients with hypokalemia, this must be         corrected prior to randomization.     -   A calculated GFR at baseline <10 ml/min using the Cockroft Gault         formula (GFR [ml/min]=(140−AGE [years]*WEIGHT         [kilograms]*CONSTANT/CREATININE [μmol/L], where CONSTANT is 1         for men and 0.85 for women).

Furthermore, the concomitant use of grapefruit juice and all potent inhibitors of CYP3A4 such as ketoconazole were prohibited.

II. DURATION AND TREATMENT

Treatment was initiated using tablets containing either the placebo or an amount of dronedarone hydrochloride corresponding to 400 mg of dronedarone at a rate of twice a day with the morning and evening meal and more specifically at a rate of one tablet in the morning during or shortly after breakfast and one tablet in the evening during or shortly after dinner.

The anticipated duration of the treatment was variable according to the time at which each patient was included in the study, and could range from a minimum of 12 months for the last patient included up to a maximum corresponding to the entire duration of the study (12 months+duration of inclusion), i.e. approximately 30 months for the first patients included.

III. RESULTS

The results obtained in this trial were analysed by the Kaplan Meier method for the figures, and the relative risk (RR) was estimated using Cox's proportional-effect regression model.

The relative risk (RR) is the ratio of the rates of occurrence of a hospitalization or of a death among the patients on dronedarone, relative to the patients on placebo.

The percentage reduction x of a given event (hospitalization, death, cardiovascular death, etc.) is calculated in the following way:

x=1−relative risk.

III.1. Results Relating to Cardiovascular Hospitalizations and to Mortality (Principal Judgement Criterion)

Among the 4628 patients included in the study, 2301 were part of the group treated with dronedarone hydrochloride.

917 events were recorded in the placebo group, against 734 in the group treated with dronedarone hydrochloride.

The calculated relative risk is 0.758 with a p=2×10⁻⁸, i.e. a reduction in cardiovascular hospitalizations and deaths of 24.2% on dronedarone hydrochloride, the result being highly significant.

FIG. 1, which reproduces the results obtained, shows a clear separation of the two cumulative curves very soon after the beginning of the treatment, this separation persisting over time throughout the duration of the study.

III.2. Results Relating to Cardiovascular Hospitalizations and to Cardiovascular Mortality

Among the 4628 patients included in the study, 2301 were part of the group treated with dronedarone hydrochloride.

892 events were recorded in the placebo group, against 701 in the group treated with dronedarone hydrochloride.

The calculated relative risk is 0.745 with a p=45×10⁻¹⁰, i.e. a reduction in cardiovascular hospitalizations and cardiovascular deaths of 25.5% on dronedarone hydrochloride, the result being highly significant.

FIG. 2, which reproduces the results obtained, shows a clear separation of the two cumulative curves very soon after the beginning of the treatment, this separation persisting over time throughout the duration of the study.

III.3. Results Relating to Cardiovascular Hospitalizations and to Sudden Death

Among the 4628 patients included in the study, 2301 were part of the group treated with dronedarone hydrochloride.

873 events were recorded in the placebo group, against 684 in the group treated with dronedarone hydrochloride.

The calculated relative risk is 0.743 with a p=48×10⁻¹⁰, i.e. a reduction in cardiovascular hospitalizations and sudden deaths of 25.5% on dronedarone hydrochloride, the result being highly significant.

FIG. 3, which reproduces the results obtained, shows a clear separation of the two cumulative curves very soon after the beginning of the treatment, this separation persisting over time throughout the duration of the study.

III.4. Results Relating to Cardiovascular Hospitalizations

Among the 4628 patients included in the study, 2301 were part of the group treated with dronedarone hydrochloride.

859 events were recorded in the placebo group, against 675 in the group treated with dronedarone hydrochloride.

The calculated relative risk is 0.745 with a p=9×10⁻⁹, i.e. a reduction in cardiovascular hospitalizations of 25.5% on dronedarone hydrochloride.

FIG. 4, which reproduces the results obtained, shows a clear separation of the two cumulative curves very soon after the beginning of the treatment, this separation persisting over time throughout the duration of the study.

III.5. Results Relating to Cardiovascular Hospitalizations for Atrial Fibrillation or Supraventricular Arrhythmia

Among the 4628 patients included in the study, 2301 were part of the group treated with dronedarone hydrochloride.

457 events were recorded in the placebo group, against 296 in the group treated with dronedarone hydrochloride.

The calculated relative risk is 0.616, i.e. a reduction in cardiovascular hospitalizations for atrial fibrillation of 38.4%

III.6. Results Relating to Cardiovascular Hospitalizations for Transient Ischemic Event or Stroke

Among the 4628 patients included in the study, 2301 were part of the group treated with dronedarone hydrochloride.

61 events were recorded in the placebo group, against 43 in the group treated with dronedarone hydrochloride.

The calculated relative risk is 0.66 with a p=0.027, i.e. a reduction in cardiovascular hospitalizations for transient ischemic event or stroke of 34% on dronedarone hydrochloride.

III.7. Results Relating to Mortality from any Cause

Among the 4628 patients included in the study, 2301 were part of the group treated with dronedarone hydrochloride.

139 deaths were recorded in the placebo group, against 116 in the group treated with dronedarone hydrochloride.

The calculated relative risk is 0.844 with a p=0.1758, i.e. a reduction of death of 15.6% on dronedarone hydrochloride.

FIG. 5, which reproduces the results obtained, shows a clear separation of the two cumulative curves very soon after the beginning of the treatment, this separation persisting over time throughout the duration of the study.

III.8. Results Relating to Cardiovascular Mortality

Among the 4628 patients included in the study, 2301 were part of the group treated with dronedarone hydrochloride.

94 cardiovascular deaths were recorded in the placebo group, against 65 in the group treated with dronedarone hydrochloride.

The calculated relative risk is 0.698 with a p=0.0252, i.e. a reduction in cardiovascular mortality of 30.2% on dronedarone hydrochloride.

FIG. 6, which reproduces the results obtained, shows a clear separation of the two cumulative curves very soon after the beginning of the treatment, this separation persisting over time throughout the duration of the study.

III.9. Results Relating to Arrhythmic Death

Among the 4628 patients included in the study, 2301 were part of the group treated with dronedarone hydrochloride.

48 arrhythmic deaths (deaths from cardiac arrhythmia) were recorded in the placebo group, against 26 in the group treated with dronedarone hydrochloride.

The calculated relative risk is 0.55 with a p=0.001, i.e. a reduction of arrhythmic death of 45% on dronedarone hydrochloride.

III.10. Results Relating to Sudden Death

Among the 4628 patients included in the study, 2301 were part of the group treated with dronedarone hydrochloride.

35 sudden deaths were recorded in the placebo group, against 14 in the group treated with dronedarone hydrochloride.

The calculated relative risk is 0.405 with a p=0.0031, i.e. a reduction in sudden death of 59.5% on dronedarone hydrochloride.

FIG. 7, which reproduces the results obtained, shows a clear separation of the two cumulative curves very soon after the beginning of the treatment, this separation persisting over time throughout the duration of the study.

III.11. Regulation of the Blood Potassium Level

The potassium concentration-modulating effect is clearly documented in the study by virtue of the results of analyses of regular blood samples taken throughout the duration of the study in the context of the monitoring of vital parameters.

The variations in potassium (in mmol/1) between the first and the last administration of the medicament of the study are included in FIG. 8, in which B signifies basal level, D signifies day and M signifies month.

An analysis of covariance of the change in blood potassium level, taking into account the starting value during the study after the 24^(th) month, shows a significant different in favour of dronedarone compared to the placebo (p<0.0001).

Dronedarone therefore makes it possible to regulate the potassium level in the blood.

III.12. Results Relating to the Patients in the Study Receiving, in Addition, a Diuretic-Based Treatment

The clinical results of the study corroborate the hypothesis that modulating potassium decreases the risk of sudden death, in particular in patients exposed to the risk of a decrease in potassium exacerbated by the administration of a diuretic treatment: the reduction in the risk of sudden death by dronedarone, i.e. the prevention of sudden death compared with the placebo, was 70.4% in the patients on diuretics and 34% in the patients not taking diuretics.

Furthermore, the reduction in the risk was greater in the groups of patients liable to be treated with diuretics, such as hypertensive patients, where the reduction in the risk was 62%, against a reduction of 45.5% observed in the patients who were not hypertensive.

III.13. Results Relating to Cardiovascular Hospitalizations and to Mortality in Patients Who Developed “Permanent Atrial Fibrillation/Flutter”

Among the 4628 patients included in the study, 2301 were part of the group treated with dronedarone hydrochloride.

294 patients who developed permanent atrial fibrillation/flutter in the group treated with placebo versus 178 patients in the group treated with dronedarone hydrochloride (p<0.001).

74 events were recorded in the placebo group versus 29 in the group treated with dronedarone hydrochloride.

The calculated relative risk is 0.67 with a p=0.06, i.e. a reduction in cardiovascular hospitalizations and to mortality in patients with permanent atrial fibrillation/flutter of 33% on dronedarone hydrochloride.

FIG. 9, which reproduces the results obtained, shows a clear separation of the two cumulative curves very soon after the beginning of the treatment, this separation persisting over time throughout the duration of the study.

III.14. Results Relating to the Prevention of Cardiovascular Hospitalization or Death in Patients with a Structural Heart Disease

From the 4628 patients included in the trial, 2301 were part of the group treated with dronedarone hydrochloride.

629 events were reported in the placebo group versus 486 in the group treated with dronedarone hydrochloride.

Calculated relative risk was equal to 0.76, i.e. a decrease of cardiovascular hospitalization or death of 24%.

III.15. Results Relating to the Prevention of Cardiovascular Hospitalization in Patients with a Structural Heart Disease

From the 4628 patients included in the trial, 2301 were part of the group treated with dronedarone hydrochloride.

583 events were reported in the placebo group versus 452 in the group treated with dronedarone hydrochloride.

Calculated relative risk was equal to 0.76, i.e. a decrease of cardiovascular hospitalization of 24%.

III.16. Results Relating to the Prevention of Death in Patients with a Structural Heart Disease

From the 4628 patients included in the trial, 2301 were part of the group treated with dronedarone hydrochloride.

106 events were reported in the placebo group versus 77 in the group treated with dronedarone hydrochloride.

Calculated relative risk was equal to 0.76, i.e. a decrease of death of 24%.

III.17. Results Relating to the Prevention of Cardiovascular Death in Patients with a Structural Heart Disease

From the 4628 patients included in the trial, 2301 were part of the group treated with dronedarone hydrochloride.

75 events were reported in the placebo group versus 48 in the group treated with dronedarone hydrochloride.

Calculated relative risk was equal to 0.67, i.e. a decrease of cardiovascular deaths of 33%.

III.18. Results Relating to the Prevention of Cardiovascular Hospitalization and Death in Patients with a Congestive Heart Failure Defined as NYHA Class III in a Stable Hemodynamic Condition

From the 4628 patients included in the trial, 2301 were part of the group treated with dronedarone hydrochloride.

At randomization, 109 patients with NYHA class III congestive heart failure in a stable hemodynamic condition were part of the placebo group and 91 patients with NYHA class III congestive heart failure in a stable hemodynamic condition were part of the group treated with dronedarone hydrochloride.

71 events were reported in the placebo group versus 40 in the group treated with dronedarone hydrochloride.

Calculated relative risk was equal to 0.56, i.e. a decrease of cardiovascular hospitalization or death of 44%.

FIG. 10 shows that the effect of dronedarone occurred early and increased over time.

III.19. Results Relating to the Prevention of Cardiovascular Hospitalization and Death in Patients with Congestive Heart Failure Defined with a Reduced Left Ventricular Ejection Fraction Below 0.35 in a Stable Hemodynamic Condition

From the 4628 patients included in the trial, 2301 were part of the group treated with dronedarone hydrochloride.

At randomization, 87 patients with congestive heart failure in a stable hemodynamic condition as defined by a reduced left ventricular ejection fraction below 0.35 were part of the placebo group and 92 patients with congestive heart failure in a stable hemodynamic condition defined with a reduced left ventricular ejection fraction below 0.35 were part of the group treated with dronedarone hydrochloride.

47 events were reported in the placebo group versus 39 in the group treated with dronedarone hydrochloride.

Calculated relative risk was equal to 0.68, i.e. a decrease of cardiovascular hospitalization or death 32%.

III.20. Results Relating to the Prevention of Death in Patients with Congestive Heart Failure Defined as NYHA Class III

From the 4628 patients included in the trial, 2301 were part of the group treated with dronedarone hydrochloride.

At randomization, 109 patients with NYHA class III congestive heart failure in a stable hemodynamic condition were part of the placebo group and 91 patients with NYHA class III congestive heart failure in a stable hemodynamic condition were part of the group treated with dronedarone hydrochloride.

21 events were reported in the placebo group versus 12 in the group treated with dronedarone hydrochloride.

Calculated relative risk was equal to 0.66, i.e. a decrease of death of 34%.

III.21. Results Relating to the Prevention of Death in Patients with Congestive Heart Failure in a Stable Hemodynamic Condition as Defined by a Reduced Left Ventricular Ejection Fraction Below 0.35

From the 4628 patients included in the trial, 2301 were part of the group treated with dronedarone hydrochloride.

At randomization, 87 patients with congestive heart failure in a stable hemodynamic conditions defined by a reduced left ventricular ejection fraction below 0.35 were part of the placebo group and 92 patients with congestive heart failure in a stable hemodynamic condition as defined by a reduced defined with a left ventricular ejection fraction below 0.35 were part of the group treated with dronedarone hydrochloride.

16 events were reported in the placebo group versus 10 in the group treated with dronedarone hydrochloride.

Calculated relative risk was equal to 0.55, i.e. a decrease of death of 45%.

III.22. Results Relating to the Prevention of Death in Patients with Congestive Heart Failure in a Stable Hemodynamic Condition as Defined as NYHA Class III and by a Reduced Left Ventricular Ejection Fraction Below 0.35

Dronedarone 400 mg Placebo BID (N = 23) (N = 24) Number of events, n 19 13 Median survival 254.0 [131.0; 293.0] 487.0 [182.0; NA] [95% CI] (day) Cumulative incidence 0.348 [0.153; 0.542] 0.292 [0.110; 0.474] of events at 6 months [95% CI] Cumulative incidence 0.696 [0.508; 0.884] 0.375 [0.181; 0.569] of events at 1 year [95% CI] Cumulative incidence 0.837 [0.680; 0.993] 0.578 [0.368; 0.788] of events at 2 years [95% CI] Endpoint's composition: Cardiovascular 15 10 hospitalization Death from any cause 4 3 Cardiovascular death 3 2 Non cardiovascular death 1 1 Log-rank test p-value 0.0711 Relative risk [95% CI]a 0.523 [0.256; 1.070] III.23. Results Relating to the Prevention of Hospitalizations Associated with Congestive Heart Failure, that is for Patients Who Developed Congestive Heart Failure

From the 4628 patients included in the trial, 2301 were part of the group treated with dronedarone hydrochloride.

132 events were reported in the placebo group versus 112 in the group treated with dronedarone hydrochloride.

Calculated relative risk was equal to 0.855, i.e. a decrease of cardiovascular hospitalization associated with congestive heart failure of 14.5%.

III.24. Results Relating to the Prevention of Hospitalizations Associated with Class IV Congestive Heart Failure, that is for Patients Who Developed Congestive Heart Failure

From the 4628 patients included in the trial, 2301 were part of the group treated with dronedarone hydrochloride.

54 events were reported in the placebo group versus 42 in the group treated with dronedarone hydrochloride.

Calculated relative risk was equal to 0.78, i.e. a decrease of cardiovascular hospitalization associated with class IV congestive heart failure of 22%.

III.25. Results Relating to the Prevention of Cardiovascular Hospitalization or Death in Patients with Coronary Heart Disease

From the 4628 patients included in the trial, 2301 were part of the group treated with dronedarone hydrochloride.

At randomization, 737 patients with coronary heart disease were part of the placebo group and 668 patients with coronary heart disease were part of the group treated with dronedarone hydrochloride.

350 events were reported in the placebo group versus 252 in the group treated with dronedarone hydrochloride.

Calculated relative risk was equal to 0.733, i.e. a decrease of cardiovascular hospitalization or death of 27% in patients with coronary heart disease (P=0.0002).

III.26. Results Relating to the Prevention of Cardiovascular Hospitalization for Patients with Coronary Heart Disease

From the 4628 patients included in the trial, 2301 were part of the group treated with dronedarone hydrochloride.

At randomization, 737 patients with coronary heart disease were part of the placebo group and 668 patients with coronary heart disease were part of the group treated with dronedarone hydrochloride.

321 events were reported in the placebo group versus 233 in the group treated with dronedarone hydrochloride.

Calculated relative risk was equal to 0.740, i.e. a decrease of cardiovascular hospitalization of 26% for patients with coronary heart disease (P=0.0005).

III.27. Results Relating to the Prevention of Death for Patients with Coronary Heart Disease

From the 4628 patients included in the trial, 2301 were part of the group treated with dronedarone hydrochloride.

At randomization, 737 patients with coronary heart disease were part of the placebo group and 668 patients with coronary heart disease were part of the group treated with dronedarone hydrochloride.

66 events were reported in the placebo group versus 39 in the group treated with dronedarone hydrochloride.

Calculated relative risk was equal to 0.643, i.e. a decrease of death of 36% for patients with coronary heart disease (P=0.0273).

III.28. Results Relating to the Prevention of Cardiovascular Death for Patients with Coronary Heart Disease

From the 4628 patients included in the trial, 2301 were part of the group treated with dronedarone hydrochloride.

At randomization, 737 patients with coronary heart disease were part of the placebo group and 668 patients with coronary heart disease were part of the group treated with dronedarone hydrochloride.

47 events were reported in the placebo group versus 26 in the group treated with dronedarone hydrochloride.

Calculated relative risk was equal to 0.602, i.e. a decrease of cardiovascular death of 40% (P=0.0355).

III.29. Results Relating to the Prevention of Cardiovascular Hospitalization and Death in Patients with Cardiovascular Risk Factors

N HR (95% CI) Age ≧75 years 1925 0.75 (0.65, 0.87) Hypertension 3995 0.77 (0.69, 0.85) Diabetes 945 0.75 (0.61, 0.91) Prior cerebrovascular accident 616 0.80 (0.62, 1.02) or systemic embolism Left atrium diameter >=50 mm 955 0.77 (0.63, 0.94) LVEF <0.40 338 0.72 (0.51, 1.00)

Consequently, these results show a decrease of respectively 25%, 23%, 25%, 20%, 23%, 28% of cardiovascular hospitalization and death in patients with at least one of each above cardiovascular risk factors.

III.30. Results Relating to the Prevention of Cardiovascular Hospitalization

Placebo Dronedarone (N = 2327) (N = 2301) HR (95% CI) Any cardiovascular 859 (36.9%)  675 (29.3%) 0.745 [0.673-0.824] hospitalization Atherosclerosis related (if not 8 (0.3%) 11 (0.5%) 1.282 [0.516-3.187] otherwise specified) Myocardial infarction or 61 (2.6%) 48 (2.1%) 0.742 [0.508-1.083] unstable angina Stable angina pectoris or 41 (1.8%) 45 (2.0%) 1.042 [0.682-1.591] atypical chest pain Syncope 24 (1.0%) 21 (0.9%) 0.836 [0.465-1.501] TIA or stroke (except 35 (1.5%) 28 (1.2%) 0.751 [0.457-1.235] intracranial hemorrhage) Atrial fibrillation and other 457 (19.6%)  296 (12.9%) 0.616 [0.532-0.713] supraventricular rhythm disorders Non-fatal cardiac arrest 2 (<0.1%)   3 (0.1%) 1.442 [0.241-8.632] Cardiovascular surgery 23 (1.0%) 21 (0.9%) 0.852 [0.472-1.540] except cardiac transplantation Implantation of a pacemaker, 29 (1.2%) 32 (1.4%) 1.041 [0.630-1.721] ICD or any other cardiac device Transcutaneous coronary, 31 (1.3%) 27 (1.2%) 0.817 [0.488-1.369] cerebrovascular or peripheral procedure Blood pressure related 21 (0.9%) 21 (0.9%) 0.949 [0.518-1.738] (hypotension, hypertension; except syncope) Cardiovascular infection 0   (0%) 4 (0.2%) NA Major bleeding (requiring two 24 (1.0%) 21 (0.9%) 0.816 [0.454-1.466] or more units of blood or any intracranial hemorrhage) Pulmonary embolism or 3 (0.1%) 10 (0.4%) 3.159 [0.869-11.478] deep vein thrombosis Worsening heart failure, 92 (4.0%) 78 (3.4%) 0.805 [0.595-1.089] including pulmonary edema or dyspnea of cardiac origin Ventricular extrasystoles 1 (<0.1%)   1 (<0.1%) 0.973 [0.061-15.560] Ventricular tachycardia (non- 6 (0.3%) 6 (0.3%) 0.952 [0.307-2.951] sustained and sustained) Ventricular fibrillation 1 (<0.1%)   1 (<0.1%) 0.943 [0.059-15.083] Other ventricular arrhythmia 0   (0%) 1 (<0.1%) NA

III.31. Results Relating to the Prevention of Cardiovascular Hospitalization not Due to a Supraventricular Arrhythmia Such as Atrial Fibrillation or Flutter

Placebo Dronedarone (N = 2327) (N = 2301) HR (95% CI) Any non-AF cardiovascular 511 (22.0%)  438 (19.0%) 0.855 [0.753-0.972] hospitalization Atherosclerosis related (if not 10 (0.4%) 11 (0.5%) 1.094 [0.464-2.575] otherwise specified) Myocardial infarction or unstable 71 (3.1%) 52 (2.3%) 0.730 [0.511-1.045] angina Stable angina pectoris or 53 (2.3%) 51 (2.2%) 0.962 [0.655-1.412] atypical chest pain Syncope 28 (1.2%) 23 (1.0%) 0.822 [0.474-1.427] TIA or stroke (except intracranial 43 (1.8%) 32 (1.4%) 0.742 [0.469-1.172] hemorrhage) Non-fatal cardiac arrest 2 (<0.1) 3 (0.1%) 1.504 [0.251-9.000] Cardiovascular surgery except 28 (1.2%) 24 (1.0%) 0.853 [0.495-1.472] cardiac transplantation Implantation of a pacemaker, 56 (2.4%) 46 (2.0%) 0.819 [0.555-1.210] ICD or any other cardiac device Transcutaneous coronary, 40 (1.7%) 31 (1.3%) 0.773 [0.484-1.235] cerebrovascular or peripheral procedure Blood pressure (hypotension, 26 (1.1%) 25 (1.1%) 0.960 [0.554-1.662] hypertension, not syncope) Cardiovascular infection 0   (0%) 4 (0.2%) NA Major bleeding (requiring two or 28 (1.2%) 27 (1.2%) 0.960 [0.566-1.628] more units of blood or any intracranial hemorrhage) Pulmonary embolism or deep 4 (0.2%) 11 (0.5%) 2.713 [0.864-8.521] vein thrombosis Worsening heart failure, 113 (4.9%) 89 (3.9%) 0.787 [0.596-1.039] including pulmonary edema or dyspnea of cardiac origin Ventricular extrasystoles 1 (<0.1)   1 (<0.1) 1.005 [0.063-16.062] Ventricular tachycardia (non- 7 (0.3%) 6 (0.3%) 0.857 [0.288-2.550] sustained and sustained) Ventricular fibrillation 1 (<0.1)   1 (<0.1) 0.997 [0.062-15.940] Other ventricular arrhythmia 0   (0%) 1 (<0.1) NA

For example, dronedarone was associated with a 14.5% reduction in the risk of a first cardiovascular hospitalization not due to a supraventricular arrhythmia (HR [95% CI] 0.855 [0.753-0.972]). As noted below, the lower number of non-AF/AFL hospitalizations on dronedarone was mainly due to fewer hospitalizations for worsening heart failure, MI or unstable angina, or stroke or TIA 

What is claimed is:
 1. A method of decreasing the risk of cardiac hospitalizations in a patient, said method comprising administering to said patient an effective amount of dronedarone or a pharmaceutically acceptable salt thereof, with food.
 2. The method according to claim 1 wherein said patient has a history of or current atrial fibrillation or flutter.
 3. The method according to claim 1 wherein the administration of dronedarone or pharmaceutically acceptable salt thereof prevents cardiovascular hospitalizations.
 4. The method according to claim 1 wherein said patient further receives a diuretic-based treatment.
 5. The method according to claim 4 wherein said diuretic is a non-potassium-sparing diuretic.
 6. The method according to claim 1 wherein the patient also exhibits at least one risk factor selected from the group consisting of: an age greater than or equal to 75, hypertension, diabetes, a history of cerebral stroke or of systemic embolism, left atrial diameter greater than or equal to 50, and left ventricular ejection fraction less than 40%.
 7. The method according to claim 1 wherein the dose of dronedarone administered per day, orally, is less than or equal 800 mg, measured in base form, and taken in one or more intakes. 